SubtleCrypto: importKey() method
Baseline Widely available
This feature is well established and works across many devices and browser versions. It’s been available across browsers since July 2015.
Secure context: This feature is available only in secure contexts (HTTPS), in some or all supporting browsers.
The importKey()
method of the SubtleCrypto
interface imports a key: that is, it takes as input a key in an external, portable
format and gives you a CryptoKey
object that you can use in the Web Crypto API.
The function accepts several import formats: see Supported formats for details.
Syntax
importKey(format, keyData, algorithm, extractable, keyUsages)
Parameters
format
-
A string describing the data format of the key to import. It can be one of the following:
raw
: Raw format.pkcs8
: PKCS #8 format.spki
: SubjectPublicKeyInfo format.jwk
: JSON Web Key format.
keyData
-
An
ArrayBuffer
, a TypedArray, aDataView
, or aJSONWebKey
object containing the key in the given format. algorithm
-
An object defining the type of key to import and providing extra algorithm-specific parameters.
-
For RSASSA-PKCS1-v1_5, RSA-PSS,
or RSA-OAEP:
pass an
RsaHashedImportParams
object. -
For ECDSA or ECDH:
pass an
EcKeyImportParams
object. -
For HMAC:
pass an
HmacImportParams
object. -
For AES-CTR, AES-CBC,
AES-GCM, and AES-KW:
pass the string identifying the algorithm or an object of the form
{ name: ALGORITHM }
, whereALGORITHM
is the name of the algorithm. - For PBKDF2: pass the string
PBKDF2
or an object of the form{ name: "PBKDF2" }
. - For HKDF: pass the string
HKDF
or an object of the form{ name: "HKDF" }
. - For Ed25519: pass the string
Ed25519
or an object of the form{ name: "Ed25519" }
. - For X25519: pass the string
X25519
or an object of the form{ name: "X25519" }
.
-
For RSASSA-PKCS1-v1_5, RSA-PSS,
or RSA-OAEP:
pass an
extractable
-
A boolean value indicating whether it will be possible to export the key using
SubtleCrypto.exportKey()
orSubtleCrypto.wrapKey()
. keyUsages
-
An
Array
indicating what can be done with the key. Possible array values are:encrypt
: The key may be used to encrypt messages.decrypt
: The key may be used to decrypt messages.sign
: The key may be used to sign messages.verify
: The key may be used to verify signatures.deriveKey
: The key may be used in deriving a new key.deriveBits
: The key may be used in deriving bits.wrapKey
: The key may be used to wrap a key.unwrapKey
: The key may be used to unwrap a key.
Return value
Exceptions
The promise is rejected when one of the following exceptions is encountered:
SyntaxError
DOMException
-
Raised when
keyUsages
is empty but the unwrapped key is of typesecret
orprivate
. TypeError
-
Raised when trying to use an invalid format or if the
keyData
is not suited for that format.
Supported formats
This API supports four different key import/export formats: Raw, PKCS #8, SubjectPublicKeyInfo, and JSON Web Key.
Raw
You can use this format to import or export AES or HMAC secret keys, or Elliptic Curve public keys.
In this format the key is supplied as an
ArrayBuffer
containing the raw bytes for the key.
PKCS #8
You can use this format to import or export RSA or Elliptic Curve private keys.
The PKCS #8 format is defined in RFC 5208, using the ASN.1 notation:
PrivateKeyInfo ::= SEQUENCE { version Version, privateKeyAlgorithm PrivateKeyAlgorithmIdentifier, privateKey PrivateKey, attributes [0] IMPLICIT Attributes OPTIONAL }
The importKey()
method expects to receive this object as an
ArrayBuffer
containing the DER-encoded
form of the PrivateKeyInfo
. DER is a set of rules for encoding ASN.1
structures into a binary form.
You are most likely to encounter this object in PEM format. PEM format
is a way to encode binary data in ASCII. It consists of a header and a footer, and in
between, the base64-encoded
binary data. A PEM-encoded PrivateKeyInfo
looks like this:
-----BEGIN PRIVATE KEY----- MIG2AgEAMBAGByqGSM49AgEGBSuBBAAiBIGeMIGbAgEBBDAU9BD0jxDfF5OV380z 9VIEUN2W5kJDZ3hbuaDenCxLiAMsoquKTfFaou71eLdN0TShZANiAARMUhCee/cp xmjGc1roj0D0k6VlUqtA+JVCWigXcIAukOeTHCngZDKCrD4PkXDBvbciJdZKvO+l ml2FIkoovZh/8yeTKmjUMb804g6OmjUc9vVojCRV0YdaSmYkkJMJbLg= -----END PRIVATE KEY-----
To get this into a format you can give to importKey()
you need to do two
things:
- base64-decode the part between header and footer, using
Window.atob()
. - convert the resulting string into an
ArrayBuffer
.
See the Examples section for more concrete guidance.
SubjectPublicKeyInfo
You can use this format to import or export RSA or Elliptic Curve public keys.
SubjectPublicKey
is defined in RFC 5280, Section 4.1 using
the ASN.1 notation:
SubjectPublicKeyInfo ::= SEQUENCE { algorithm AlgorithmIdentifier, subjectPublicKey BIT STRING }
Just like PKCS #8, the importKey()
method expects to
receive this object as an
ArrayBuffer
containing the DER-encoded
form of the SubjectPublicKeyInfo
.
Again, you are most likely to encounter this object in PEM format.
A PEM-encoded SubjectPublicKeyInfo
looks like this:
-----BEGIN PUBLIC KEY----- MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA3j+HgSHUnc7F6XzvEbD0 r3M5JNy+/kabiJVu8IU1ERAl3Osi38VgiMzjDBDOrFxVzNNzl+SXAHwXIV5BHiXL CQ6qhwYsDgH6OqgKIwiALra/wNH4UHxj1Or/iyAkjHRR/kGhUtjyVCjzvaQaDpJW 2G+syd1ui0B6kJov2CRUWiPwpff8hBfVWv8q9Yc2yD5hCnykVL0iAiyn+SDAk/rv 8dC5eIlzCI4efUCbyG4c9O88Qz7bS14DxSfaPTy8P/TWoihVVjLaDF743LgM/JLq CDPUBUA3HLsZUhKm3BbSkd7Q9Ngkjv3+yByo4/fL+fkYRa8j9Ypa2N0Iw53LFb3B gQIDAQAB -----END PUBLIC KEY-----
Just as with PKCS #8, to get this into a format you can give to
importKey()
you need to do two things:
- base64-decode the part between header and footer, using
Window.atob()
. - convert the resulting string into an
ArrayBuffer
.
See the Examples section for more concrete guidance.
JSON Web Key
You can use JSON Web Key format to import or export RSA or Elliptic Curve public or private keys, as well as AES and HMAC secret keys.
JSON Web Key format is defined in RFC 7517. It describes a way to represent public, private, and secret keys as JSON objects.
A JSON Web Key looks something like this (this is an EC private key):
{
"crv": "P-384",
"d": "wouCtU7Nw4E8_7n5C1-xBjB4xqSb_liZhYMsy8MGgxUny6Q8NCoH9xSiviwLFfK_",
"ext": true,
"key_ops": ["sign"],
"kty": "EC",
"x": "SzrRXmyI8VWFJg1dPUNbFcc9jZvjZEfH7ulKI1UkXAltd7RGWrcfFxqyGPcwu6AQ",
"y": "hHUag3OvDzEr0uUQND4PXHQTXP5IDGdYhJhL-WLKjnGjQAw0rNGy5V29-aV-yseW"
};
Examples
Note: You can try the working examples on GitHub.
Raw import
This example imports an AES key from an ArrayBuffer
containing the raw bytes
to use. See the complete code on GitHub.
const rawKey = window.crypto.getRandomValues(new Uint8Array(16));
/*
Import an AES secret key from an ArrayBuffer containing the raw bytes.
Takes an ArrayBuffer string containing the bytes, and returns a Promise
that will resolve to a CryptoKey representing the secret key.
*/
function importSecretKey(rawKey) {
return window.crypto.subtle.importKey("raw", rawKey, "AES-GCM", true, [
"encrypt",
"decrypt",
]);
}
PKCS #8 import
This example imports an RSA private signing key from a PEM-encoded PKCS #8 object. See the complete code on GitHub.
/*
Convert a string into an ArrayBuffer
from https://developers.google.com/web/updates/2012/06/How-to-convert-ArrayBuffer-to-and-from-String
*/
function str2ab(str) {
const buf = new ArrayBuffer(str.length);
const bufView = new Uint8Array(buf);
for (let i = 0, strLen = str.length; i < strLen; i++) {
bufView[i] = str.charCodeAt(i);
}
return buf;
}
const pemEncodedKey = `-----BEGIN PRIVATE KEY-----
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
-----END PRIVATE KEY-----`;
/*
Import a PEM encoded RSA private key, to use for RSA-PSS signing.
Takes a string containing the PEM encoded key, and returns a Promise
that will resolve to a CryptoKey representing the private key.
*/
function importPrivateKey(pem) {
// fetch the part of the PEM string between header and footer
const pemHeader = "-----BEGIN PRIVATE KEY-----";
const pemFooter = "-----END PRIVATE KEY-----";
const pemContents = pem.substring(
pemHeader.length,
pem.length - pemFooter.length - 1,
);
// base64 decode the string to get the binary data
const binaryDerString = window.atob(pemContents);
// convert from a binary string to an ArrayBuffer
const binaryDer = str2ab(binaryDerString);
return window.crypto.subtle.importKey(
"pkcs8",
binaryDer,
{
name: "RSA-PSS",
hash: "SHA-256",
},
true,
["sign"],
);
}
SubjectPublicKeyInfo import
This example imports an RSA public encryption key from a PEM-encoded SubjectPublicKeyInfo object. See the complete code on GitHub.
// from https://developers.google.com/web/updates/2012/06/How-to-convert-ArrayBuffer-to-and-from-String
function str2ab(str) {
const buf = new ArrayBuffer(str.length);
const bufView = new Uint8Array(buf);
for (let i = 0, strLen = str.length; i < strLen; i++) {
bufView[i] = str.charCodeAt(i);
}
return buf;
}
const pemEncodedKey = `-----BEGIN PUBLIC KEY-----
MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAy3Xo3U13dc+xojwQYWoJLCbOQ5fOVY8LlnqcJm1W1BFtxIhOAJWohiHuIRMctv7dzx47TLlmARSKvTRjd0dF92jx/xY20Lz+DXp8YL5yUWAFgA3XkO3LSJgEOex10NB8jfkmgSb7QIudTVvbbUDfd5fwIBmCtaCwWx7NyeWWDb7A9cFxj7EjRdrDaK3ux/ToMLHFXVLqSL341TkCf4ZQoz96RFPUGPPLOfvN0x66CM1PQCkdhzjE6U5XGE964ZkkYUPPsy6Dcie4obhW4vDjgUmLzv0z7UD010RLIneUgDE2FqBfY/C+uWigNPBPkkQ+Bv/UigS6dHqTCVeD5wgyBQIDAQAB
-----END PUBLIC KEY-----`;
function importRsaKey(pem) {
// fetch the part of the PEM string between header and footer
const pemHeader = "-----BEGIN PUBLIC KEY-----";
const pemFooter = "-----END PUBLIC KEY-----";
const pemContents = pem.substring(
pemHeader.length,
pem.length - pemFooter.length - 1,
);
// base64 decode the string to get the binary data
const binaryDerString = window.atob(pemContents);
// convert from a binary string to an ArrayBuffer
const binaryDer = str2ab(binaryDerString);
return window.crypto.subtle.importKey(
"spki",
binaryDer,
{
name: "RSA-OAEP",
hash: "SHA-256",
},
true,
["encrypt"],
);
}
JSON Web Key import
This code imports an ECDSA private signing key, given a JSON Web Key object that represents it. See the complete code on GitHub.
const jwkEcKey = {
crv: "P-384",
d: "wouCtU7Nw4E8_7n5C1-xBjB4xqSb_liZhYMsy8MGgxUny6Q8NCoH9xSiviwLFfK_",
ext: true,
key_ops: ["sign"],
kty: "EC",
x: "SzrRXmyI8VWFJg1dPUNbFcc9jZvjZEfH7ulKI1UkXAltd7RGWrcfFxqyGPcwu6AQ",
y: "hHUag3OvDzEr0uUQND4PXHQTXP5IDGdYhJhL-WLKjnGjQAw0rNGy5V29-aV-yseW",
};
/*
Import a JSON Web Key format EC private key, to use for ECDSA signing.
Takes an object representing the JSON Web Key, and returns a Promise
that will resolve to a CryptoKey representing the private key.
*/
function importPrivateKey(jwk) {
return window.crypto.subtle.importKey(
"jwk",
jwk,
{
name: "ECDSA",
namedCurve: "P-384",
},
true,
["sign"],
);
}
Specifications
Specification |
---|
Web Cryptography API # SubtleCrypto-method-importKey |
Browser compatibility
BCD tables only load in the browser